Materials Data on Mg2TcO4 by Materials Project

doi:10.17188/1206825

Title: Materials Data on Mg2TcO4 by Materials Project

Abstract

Mg2TcO4 is Spinel-like structured and crystallizes in the orthorhombic Imma space group. The structure is three-dimensional. there are two inequivalent Mg2+ sites. In the first Mg2+ site, Mg2+ is bonded to four O2- atoms to form MgO4 tetrahedra that share corners with six equivalent MgO6 octahedra and corners with six equivalent TcO6 octahedra. The corner-sharing octahedra tilt angles range from 57–59°. There are two shorter (1.99 Å) and two longer (2.04 Å) Mg–O bond lengths. In the second Mg2+ site, Mg2+ is bonded to six O2- atoms to form MgO6 octahedra that share corners with six equivalent MgO4 tetrahedra, edges with two equivalent MgO6 octahedra, and edges with four equivalent TcO6 octahedra. There are four shorter (2.09 Å) and two longer (2.13 Å) Mg–O bond lengths. Tc4+ is bonded to six O2- atoms to form TcO6 octahedra that share corners with six equivalent MgO4 tetrahedra, edges with two equivalent TcO6 octahedra, and edges with four equivalent MgO6 octahedra. There are two shorter (2.03 Å) and four longer (2.07 Å) Tc–O bond lengths. There are two inequivalent O2- sites. In the first O2- site, O2- is bonded to two Mg2+ and two equivalent Tc4+ atoms to form a mixture of distortedmore »« less

Publication Date:: 2020-05-03

Other Number(s):: mp-34433

DOE Contract Number:: AC02-05CH11231; EDCBEE

Product Type:: Dataset

Research Org.:: Lawrence Berkeley National Lab. (LBNL), Berkeley, CA (United States). LBNL Materials Project

Sponsoring Org.:: USDOE Office of Science (SC), Basic Energy Sciences (BES)

Subject:: 36 MATERIALS SCIENCE

Keywords:: crystal structure; Mg2TcO4; Mg-O-Tc

OSTI Identifier:: 1206825

DOI:: 10.17188/1206825

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                    The Materials Project. Materials Data on Mg2TcO4 by Materials Project.  United States: N. p., 2020. 
        Web.  doi:10.17188/1206825.

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                    The Materials Project. Materials Data on Mg2TcO4 by Materials Project.  United States.  doi:10.17188/1206825.

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                    The Materials Project. 2020.  
"Materials Data on Mg2TcO4 by Materials Project".  United States.  doi:10.17188/1206825.  https://www.osti.gov/servlets/purl/1206825. Pub date:Sun May 03 00:00:00 EDT 2020

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@article{osti_1206825,

  title        = {Materials Data on Mg2TcO4 by Materials Project},

  author       = {The Materials Project},

  abstractNote = {Mg2TcO4 is Spinel-like structured and crystallizes in the orthorhombic Imma space group. The structure is three-dimensional. there are two inequivalent Mg2+ sites. In the first Mg2+ site, Mg2+ is bonded to four O2- atoms to form MgO4 tetrahedra that share corners with six equivalent MgO6 octahedra and corners with six equivalent TcO6 octahedra. The corner-sharing octahedra tilt angles range from 57–59°. There are two shorter (1.99 Å) and two longer (2.04 Å) Mg–O bond lengths. In the second Mg2+ site, Mg2+ is bonded to six O2- atoms to form MgO6 octahedra that share corners with six equivalent MgO4 tetrahedra, edges with two equivalent MgO6 octahedra, and edges with four equivalent TcO6 octahedra. There are four shorter (2.09 Å) and two longer (2.13 Å) Mg–O bond lengths. Tc4+ is bonded to six O2- atoms to form TcO6 octahedra that share corners with six equivalent MgO4 tetrahedra, edges with two equivalent TcO6 octahedra, and edges with four equivalent MgO6 octahedra. There are two shorter (2.03 Å) and four longer (2.07 Å) Tc–O bond lengths. There are two inequivalent O2- sites. In the first O2- site, O2- is bonded to two Mg2+ and two equivalent Tc4+ atoms to form a mixture of distorted edge and corner-sharing OMg2Tc2 trigonal pyramids. In the second O2- site, O2- is bonded to three Mg2+ and one Tc4+ atom to form a mixture of distorted edge and corner-sharing OMg3Tc trigonal pyramids.},

  doi          = {10.17188/1206825},

  journal      = {},

  number       = ,

  volume       = ,

  place        = {United States},

  year         = {2020},

  month        = {5}

}

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The Materials Project

Harnessing the power of supercomputing and state of the art electronic structure methods, the Materials Project provides open web-based access to computed information on known and predicted materials as well as powerful analysis tools to inspire and design novel materials. Experimental research can be targeted to the most promising compounds from computational data sets. Supercomputing clusters at national laboratories provide the infrastructure that enables computations, data, and algorithms to run at unparalleled speed. Researchers are be able to data-mine scientific trends in materials properties. By providing materials researchers with the information they need to design better, the Materials Project aimsmore »

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Research Org:	Lawrence Berkeley National Lab. (LBNL), Berkeley, CA (United States). LBNL Materials Project; Oak Ridge National Lab. (ORNL), Oak Ridge, TN (United States); Argonne National Lab. (ANL), Argonne, IL (United States); University of Califorinia San Diego Supercomputing Center (SDSC), San Diego, CA (United States)
Sponsoring Org:	USDOE Office of Science (SC), Basic Energy Sciences (BES); USDOE Office of Science (SC), Advanced Scientific Computing Research (ASCR); USDOE Office of Energy Efficiency and Renewable Energy (EERE), Vehicle Technologies Office (EE-3V)